JP4963215B2 - Signal analysis apparatus, arithmetic program, and arithmetic processing method - Google Patents

Description

  The present invention relates to a signal analysis apparatus, a calculation program, and a calculation processing method for analyzing detection data from a detector.

Conventionally, a detection signal (physical quantity) detected from a detector such as a sound pressure sensor is input to a signal analysis device such as an FFT analyzer, and the trajectory is displayed on a display unit or stored as detection data. (For example, Patent Document 1). Such a signal analysis apparatus not only displays and stores specific detection data, but also performs a specific calculation (for example, FFT: Fourier analysis) on one input, and displays the calculation result. I was able to save it.
In recent years, more advanced analysis of detection results is required, and signal analysis devices are also required to have an analysis function corresponding to the analysis. For example, there is a need for an analysis function such as installing a plurality of microphones around a machine and calculating the sound power level of the machine by a calculation method such as a sound pressure method based on the sound pressure level (physical quantity) of each microphone. .

Such an analysis requires complex calculation of the physical quantities of multiple detectors, so when using a conventional signal analyzer, each physical quantity is measured and then imported into dedicated analysis software. It was necessary to calculate the analysis result. For this reason, the calculated analysis result cannot be handled as a physical quantity. In other words, this analysis result is simply displayed on the display unit and the content is confirmed, and cannot be applied to post-processing such as further analysis, and is not versatile. there were. In addition, since the calculation of the analysis result was performed after the measurement of the physical quantity, the time and time required to calculate the analysis result increased, and in addition, the measurement success or failure could not be determined until the analysis result was viewed. There was also a problem that, when the failure was found, there was an increase in labor, such as having to perform measurement again.
JP 2002-148283 A

  An object of the present invention is to provide a signal analysis device, a calculation program, and a calculation processing method capable of outputting an analysis result calculated based on a physical quantity detected by a detector with high versatility.

The present invention solves the above problems by the following means. For ease of understanding, the reference numerals corresponding to the embodiments of the present invention will be described in parentheses, but the present invention is not limited thereto.
According to the first aspect of the present invention, there is provided an actual input channel section (21) for inputting respective sound pressure levels detected from a plurality of microphones (60) , and each of the time points input by the actual input channel section (21). The calculation unit (24) that calculates the sound power level based on the sound pressure level, and the time relationship between the sound power level calculated by the calculation unit (24) and the sound pressure level are synchronized to synchronize. A synchronization processing unit (25), a virtual output channel unit (23) for outputting the sound power level calculated by the calculation unit (24) to the inside and / or the outside, and the virtual output channel unit (23). At the same time when the sound power level is output, an actual output channel that outputs the sound pressure level synchronized by the synchronization processing unit (25) to the inside and / or outside. Parts (22), a signal analysis apparatus comprising a (10).
The invention of claim 2 is the signal analysis apparatus (10) according to claim 1, further comprising a display unit (30) for displaying the sound power level .
According to a third aspect of the present invention, in the signal analysis device (10) according to the first or second aspect , the storage unit (40) stores the acoustic power level as measurement data in an internal medium or an external medium of the signal analysis device. Is a signal analysis device (10).
According to a fourth aspect of the present invention, in the signal analysis device (10) according to any one of the first to third aspects, an arithmetic expression input for inputting an arithmetic expression for the arithmetic unit (24) to calculate It is a signal analysis apparatus (10) provided with a part (24-1).
The invention according to claim 5 is the signal analysis device (10) according to any one of claims 1 to 4 , wherein the arithmetic expression storage unit (24-2) for storing a plurality of arithmetic expressions, The signal analysis device (10) includes an arithmetic expression selection unit (24-3) that selects an arithmetic expression from a plurality of arithmetic expressions stored in the arithmetic expression storage unit (24-2).

According to a sixth aspect of the invention, a plurality of operation programs of the microphone signal analyzer for analyzing each of the sound pressure levels detected from (60) (10-2), the signal analyzer (10-2), wherein an actual input procedure (S103) to enter each of the sound pressure level, the arithmetic procedure based on the respective sound pressure levels of the input time point to computing the sound power level by the actual input procedure (S103) (S104), and the acoustic power level calculated by the calculating procedure (S104), and the synchronization procedure to synchronize to match the temporal relationship between the sound pressure level (S105), the calculated the sound power level internal and / or the steps virtual output to output to the outside (S106), the same time as the sound power level by virtual output procedure (S106) is output A calculation program for executing a real output procedure (S106) for outputting the internal and / or external to the sound pressure level which is synchronized by the synchronization processing procedure (S105).
A seventh aspect of the present invention is the arithmetic program according to the sixth aspect , wherein the signal analyzing apparatus (10-2) is caused to execute a display procedure (S107) for displaying the sound power level. It is.
The invention according to claim 8 is the arithmetic program according to claim 6 or 7 , wherein the signal analysis device (10-2) stores the sound power level as measurement data (S107). An arithmetic program characterized in that
The invention of claim 9 is the arithmetic program according to any one of claims 6 to 8 , wherein the signal analysis device (10-2) inputs an arithmetic expression (S202). Is an arithmetic program characterized in that
A tenth aspect of the present invention is the calculation program according to any one of the sixth to ninth aspects, wherein a predetermined number of arithmetic expressions stored in the signal analyzing device (10-2) are determined in advance from a plurality of arithmetic expressions. An arithmetic program for executing an arithmetic expression selection procedure (S102) for selecting an arithmetic expression.

According to an eleventh aspect of the present invention, in the arithmetic processing method of the signal analysis device (10) for analyzing each sound pressure level detected from the plurality of microphones (60), an actual input step for inputting each sound pressure level ( S103), a calculation step (S104) for calculating a sound power level based on each sound pressure level at the time of input in the actual input step (S103), the calculated sound power level, and the sound pressure A synchronization processing step (S105) in which temporal relationships with levels are synchronized to synchronize, a virtual output step (S106) for outputting the calculated sound power level internally and / or externally, and the virtual output step ( At the same time when the sound power level is output by S106), the same is performed by the synchronization processing step (S105). The actual output step (S106) for outputting the sound pressure level which is internally and / or externally, an arithmetic processing method comprising.
A twelfth aspect of the present invention is the arithmetic processing method according to the eleventh aspect , further comprising a display step (S107) for displaying the sound power level .
A thirteenth aspect of the present invention is the arithmetic processing method according to the eleventh or twelfth aspect , further comprising a storage step (S107) for storing the acoustic power level as measurement data in the signal analysis device (10). An arithmetic processing method characterized by the above.
According to a fourteenth aspect of the present invention, in the arithmetic processing method according to any one of the eleventh to thirteenth aspects, an arithmetic expression input step (S202) for inputting an arithmetic expression calculated in the arithmetic step (S104) is provided. It is the arithmetic processing method characterized by including.
According to a fifteenth aspect of the present invention, in the arithmetic processing method according to any one of the eleventh to fourteenth aspects, an arithmetic expression selection step (S102) for selecting an arithmetic expression from a plurality of arithmetic expressions stored in advance. Is included in the calculation processing method.

The present invention has the following effects.
(1) Since the signal analysis apparatus calculates a virtual physical quantity based on a plurality of input real physical quantities, the virtual physical quantity such as an analysis result can be output as highly versatile data, and post-processing of the data Can be used widely.
(2) Since the signal analysis device outputs the real physical quantity to the inside and / or the outside, the real physical quantity can be outputted as highly versatile data, and can be widely used for post-processing of data together with the virtual physical quantity. .

(3) Since the real physical quantity and the virtual physical quantity are synchronized, the real physical quantity and the virtual physical quantity can be output in synchronization with and / or outside the signal analyzer, and the post-processing of both is made accurate. be able to.
(4) Since the signal analysis apparatus can display the calculated virtual physical quantity, the virtual physical quantity can be easily confirmed visually.

(5) Since the signal analyzing apparatus can store the calculated virtual physical quantity, the virtual physical quantity can be saved as measurement data.
(6) Since the signal analysis apparatus can input an arithmetic expression, the calculation of the virtual physical quantity can be set in various ways.
(7) The signal analysis apparatus can store a plurality of arithmetic expressions, and can select an arithmetic expression therefrom, so that an appropriate arithmetic expression can be selected according to the analysis content.

  The object of the present invention is to provide a signal analysis device, a calculation program, and a calculation processing method capable of outputting an analysis result calculated based on a physical quantity detected by a detector with high versatility. Based on this, the virtual physical quantity calculated by the calculation unit is output from the virtual output channel unit.

Hereinafter, the present invention will be described in more detail with reference to the drawings and the like.
FIG. 1 is a diagram showing a first embodiment of a signal analyzing apparatus according to the present invention. FIG. 2 is a diagram illustrating the sound pressure level and the sound power level displayed on the display unit of the signal analyzing apparatus.
As shown in FIG. 1, the signal analysis apparatus 10 includes a signal processing unit 20, a display unit 30, a storage unit 40, and an operation input unit 50, and an input signal (actual physical quantity) input to the signal processing unit 20. Is a device for analyzing In this embodiment, microphones 60 arranged at four locations around the machine 100 are connected to the signal processing unit 20, and the sound generated by the machine 100 is based on the sound pressure level (actual physical quantity) input from the microphone 60. A case where a power level (virtual physical quantity) is calculated will be described as an example.
The signal processing unit 20 includes a real input channel unit 21, a real output channel unit 22, a virtual output channel unit 23, a calculation unit 24, and a synchronization processing unit 25.

The actual input channel unit 21 is an input unit that takes in the four sound pressure levels detected by the microphone 60 into the signal processing unit 20 of the signal analysis device 10.
The actual output channel unit 22 is an output unit that outputs the sound pressure level captured by the actual input channel unit 21 to the display unit 30 and the storage unit 40.
The virtual output channel unit 23 is an output unit that outputs the sound power level calculated by the calculation unit 24 described later to the display unit 30 and the storage unit 40.
The arithmetic unit 24 is an arithmetic circuit including an arithmetic expression input processing unit 24-1, an arithmetic expression storage unit 24-2, and an arithmetic expression selection unit 24-3.

The arithmetic expression input processing unit 24-1 is a circuit that causes the arithmetic unit 24 to input a specific arithmetic expression used for analysis input by the operation input unit 50. In the present embodiment, formula 1 described later is input.
The arithmetic expression storage unit 24-2 is an internal memory that stores the arithmetic expressions input by the arithmetic expression input processing unit 24-1, and can store a plurality of arithmetic expressions. Also, frequently used arithmetic expressions and the like are stored in advance in the arithmetic expression storage unit 24-2.
The arithmetic expression selection unit 24-3 is a circuit that allows the user to select an appropriate arithmetic expression corresponding to the analysis content from the plurality of arithmetic expressions stored in the arithmetic expression storage unit 24-2 using the operation input unit 50. It is.
The synchronization processing unit 25 inputs the four sound pressure levels of the microphone 60 and the sound power level calculated by the calculation unit 24, and matches (synchronizes) the temporal relationship between the two, so that the display unit 30 and the storage unit 40 is a signal processing circuit that outputs to 40. Specifically, the input sound pressure level and the sound power level calculated from the sound pressure level at the time of input are output simultaneously.
The calculation unit 24 of the signal processing unit 20 calculates an acoustic power level based on the four sound pressure levels input from the actual input channel unit 21 and outputs the sound power level to the virtual output channel unit 23. The calculation of the sound power level uses the sound pressure method and is calculated based on Equation 1 shown below.

Here, for each variable of Equation 1, L _w is the sound power level [dB], L _pi is the sound pressure level [dB] of the i-th microphone 60 (i is 1 to N), and N is the number of microphones 60 ( In this embodiment, 4), S ₁ is the area [m ² ] of the measurement surface, S ₀ is the reference area (= 1 [m ² ]), and C is a correction term for the influence of temperature and atmospheric pressure. Note that the calculation unit 24 has a high-speed calculation processing function, and can complete the calculation process of the acoustic power level almost simultaneously with the input of the sound pressure level of the microphone 60, and the calculated sound pressure level can be calculated. The power level can be displayed on the display unit 30 in substantially real time.

The display unit 30 is a display that visually displays the four sound pressure levels and sound power levels output from the signal processing unit 20.
The storage unit 40 is a memory that stores four sound pressure levels and acoustic power levels output from the signal processing unit 20 as measurement data. The storage unit 40 may be stored not only in a memory such as a hard disk provided in the signal analyzing apparatus 10 but also in a storage medium such as a CD or a memory card, or connected from the outside by a communication cable or the like. It may be an external memory.
The operation input unit 50 is a keyboard composed of a plurality of buttons, and is used for commanding each operation of measurement, inputting an arithmetic expression, and the like.
The microphone 60 is a sound pressure meter that detects the sound pressure level as an actual physical quantity and outputs the detection signal to the signal analysis device 10. In the present embodiment, four places are provided around the machine 100 and are connected to the actual input channel section 21 of the signal analyzing apparatus 10.
The machine 100 is a measurement target of the sound pressure level by the microphone 60.

Next, the operation of the signal analysis device 10 in the measurement of the sound pressure level using the microphone 60 will be described.
As shown in FIG. 1, when the microphone 60 is appropriately arranged around the machine 100 and connected to the actual input channel unit 21 of the signal analysis device 10, the operator turns on the power of the signal analysis device 10 and the microphone 60. throw into. Next, when an arithmetic expression (Equation 1) necessary for the analysis is input by the operation input unit 50, the arithmetic expression input processing unit 24-1 inputs the arithmetic expression to the arithmetic unit 24 (an arithmetic expression input step), and an arithmetic operation is performed. The operation input unit 50 selects the operation expression (expression 1) stored in the expression storage unit 24-2 and input by the operation expression selection unit 24-3 (operation expression selection step). If a plurality of arithmetic expressions are stored in advance in the arithmetic expression storage unit 24-2, it is possible to select an appropriate arithmetic expression from them without inputting them.

When an arithmetic expression used for analysis is appropriately selected and measurement start is instructed by an operator, the signal processing unit 20 of the signal analysis apparatus 10 inputs four sound pressure levels detected by the microphone 60 (actual input step). ). The computing unit 24 of the signal processing unit 20 has a sound power level that is a virtual physical quantity based on the sound pressure level that is four actual physical quantities and the computing expression (Formula 1) selected by the computing expression selection unit 24-3. Is calculated (calculation step).
Subsequently, the signal processing unit 20 of the signal analyzing apparatus 10 inputs each input sound pressure level and the calculated acoustic power level to the synchronization processing unit 25 and synchronizes the data (synchronization processing step). These are output from the actual output channel unit 22 and the virtual output channel unit 23 to the display unit 30 and the storage unit 40 (virtual output step and actual output step).

The sound pressure level and the sound power level output from the actual output channel unit 22 and the virtual output channel unit 23 are almost simultaneously with the input of the sound pressure level from the microphone 60, as shown in FIG. Displayed (display step). At the same time, each measured data is written to the storage unit 40 as needed (storage step).
During the measurement of the sound pressure level, the sound pressure level (FIGS. 2A to 2D) and the sound power level (FIG. 2E) are displayed on the display unit 30 in real time. Measurement can be continued while always checking each sound pressure level and sound power level. The sound power level is obtained as a virtual physical quantity, and the result is displayed in real time, so that measurement deficiencies can be detected immediately, and time waste such as remeasurement can be minimized. .

As described above, the signal analyzing apparatus according to the first embodiment has the following effects.
(1) The signal analysis device 10 calculates the sound power level by the calculation unit 24 based on the four sound pressure levels input from the actual input channel unit 21. The sound power level that could not be handled as a physical quantity can be output as a virtual physical quantity with improved versatility, and can be widely used in post-processing such as the data display unit 30 and the storage unit 40. Moreover, a general-purpose display function can be used without giving the display unit 30 an analysis function. Furthermore, not only a specific calculation, but also an analysis result calculated according to a plurality of calculation expressions input or stored in advance in the calculation storage unit 24-2 can be output as a virtual physical quantity.
(2) Since the signal analysis apparatus 10 includes the actual output channel unit 22 that outputs the sound pressure level, the sound pressure level that is the actual physical quantity together with the acoustic power level that is the virtual physical quantity is displayed on the display unit 30 that is post-processing. And output to the storage unit 40.

(3) Since the signal analysis device 10 includes the synchronization processing unit 25 that synchronizes the sound pressure level and the sound power level, the display unit 30 and the storage unit 40 of the signal analysis device 10 include the synchronized sound pressure level and The sound power level can be output, and the comparison between the two can be made accurate.
(4) Since the signal analyzing apparatus 10 includes the display unit 30, the sound pressure level and the calculated sound power level can be easily confirmed visually.

(5) Since the signal analysis device 10 includes the storage unit 40, the sound pressure level and the calculated sound power level can be easily stored.
(6) Since the calculation unit 24 includes the calculation formula input processing unit 24-1 for inputting a calculation formula to the calculation unit 24, various calculation contents can be set.
(7) The arithmetic unit 24 includes an arithmetic expression storage unit 24-2 that stores a plurality of arithmetic expressions, and an arithmetic expression selection unit 24-3 that selects a predetermined arithmetic expression from the arithmetic expression storage unit 24-2. Therefore, an appropriate arithmetic expression can be selected according to the analysis content.

FIG. 3 is a diagram showing a second embodiment of the signal analyzing apparatus according to the present invention. FIG. 4 is a diagram illustrating an operation flow during measurement of the measurement PC according to the second embodiment, and FIG. 5 is a diagram illustrating a flow of an arithmetic expression input procedure of the measurement PC. In the description of the second embodiment, the same functions as those of the first embodiment described above are denoted by the same reference numerals or unified reference numerals at the end, and repeated descriptions and drawings are appropriately omitted.
As shown in FIG. 3, the measurement PC 10-2 is a personal computer including a CPU unit 20-2, a display unit 30-2, a storage unit 40-2, and an operation input unit 50-2. In the measurement PC 10-2, a calculation program that causes the measurement PC 10-2 to execute a signal processing procedure, a display procedure, and a storage procedure is installed in the storage unit 40-2, and the signal analysis apparatus 10 according to the first embodiment. Has the same measurement and analysis functions. Here, the signal processing procedure includes an actual input procedure, an actual output procedure, a virtual output procedure, a calculation procedure, and a synchronization processing procedure. Functions similar to those of the signal processing unit 20 of the first embodiment are provided in the measurement PC 10-2. It is a program to be executed. Similarly, the calculation procedure includes a calculation formula input procedure and a calculation formula selection procedure, and is a program having the same function as the calculation unit 24 of the first embodiment.

Also in the present embodiment, similarly to the first embodiment, the sound power level (virtual power) generated by the machine 100 is based on the sound pressure levels (actual physical quantities) input from the microphones 60 arranged at four locations around the machine 100. The case of calculating (physical quantity) will be described as an example.
The CPU unit 20-2 is an arithmetic circuit that comprehensively controls each unit of the measurement PC 10-2, and executes an arithmetic program installed in the storage unit 40-2.
The display unit 30-2 is a display for displaying the operation content of the measurement PC 10-2, and also displays the measured sound pressure level, acoustic power level, and the like.
The storage unit 40-2 is a hard disk provided inside the measurement PC 10-2, and stores arithmetic expressions used for analysis and measured measurement data.
The operation input unit 50-2 is a keyboard composed of a plurality of buttons, and is used for commanding each measurement operation or inputting an arithmetic expression.

Next, the operation of the measurement PC 10-2 in measuring the sound pressure level with the microphone 60 will be described.
As shown in FIG. 4, when the measurement start instruction is input by the operator (S101), the measurement PC 10-2 displays an existing arithmetic expression list on the display unit 30-2 and the operation input unit 50-2. The operator is allowed to select a specific arithmetic expression (S102, arithmetic expression selection procedure).
If a new arithmetic expression is to be calculated (S201), the measurement PC 10-2 displays an input image of the arithmetic expression on the display unit 30-2 as shown in FIG. 5, and the operation input unit 50-2. The operator is made to input the arithmetic expression (Expression 1) (S202, arithmetic expression input procedure). When the arithmetic expression (Expression 1) is properly input, the arithmetic expression (Expression 1) is stored in the storage unit 40-2 (S203), and the arithmetic expression input operation is completed (S204). When the input of the calculation formula is completed, the operator selects the calculation formula (Formula 1) (FIG. 3, S102, calculation formula selection procedure).

When the arithmetic expression is properly selected, as shown in FIG. 4, the sound pressure level detected from the microphone 60 is input (S103, actual input procedure), and the sound power level is calculated based on the input sound pressure level. (S104, calculation procedure). Subsequently, the input sound pressure level and the calculated sound power level are synchronized (S105, synchronization processing procedure), and each is transferred to the display unit 30-2 and the storage unit 40-2 of the measurement PC 10-2. Output (S106, actual output procedure and virtual output procedure).
The display unit 30-2 to which the sound pressure level and the sound power level are input displays the measurement result in real time (see FIG. 2), and at the same time, the storage unit 40-2 stores each as measurement data as needed ( S107, display means and storage means). When the necessary measurement data is measured, the measurement ends (S108).

  As described above, the signal processing procedure, the display procedure, and the storage procedure installed in the measurement PC 10-2 according to the present embodiment are the measurement of the sound pressure level that is a real physical quantity, the calculation of the acoustic power level that is a virtual physical quantity, and the sound pressure. Since the calculation program causes the measurement PC 10-2 to display and store the level and the sound power level, the measurement apparatus can be easily prepared by installing the calculation program in a general-purpose personal computer. it can.

(Modification)
As described above, various modifications and changes can be made without being limited to the embodiments described above, and those inventions are also within an equivalent range.
(1) In each embodiment, the signal analysis device 10 (measurement PC 10-2) includes one signal processing unit 20 (signal processing procedure), one display unit 30 (display procedure), and one storage unit 40 (storage procedure). However, it may be configured in other forms. For example, only the signal processing unit 20 is used as a device, and the display procedure and the storage procedure are programmed and activated on a PC, or only the signal processing procedure is programmed and activated on a PC, and the display unit 30 and the storage unit 40 are configured as devices. The signal processing procedure can be started on the first PC with the signal processing procedure set as the first program, and the display procedure and the storage procedure can be started on the second PC with the display procedure and storage procedure set as the second program. Is possible.
(2) In each embodiment, the signal analysis device 10 (measurement PC 10-2) calculates the sound power level, but may be used for other analysis. For example, the present invention can be used for complicated analysis such as tracking analysis and calculation such as obtaining an average value of a plurality of real physical quantities.
(3) In each embodiment, the actual output channel unit 22 (actual output procedure) and the virtual output channel unit 23 (virtual output procedure) indicate the sound pressure level and the sound power level in the signal analysis device 10 (measurement PC 10-2). Output to the internal display unit 30 (display procedure) and the storage unit 40 (storage procedure), but may be output to the outside of the signal analysis device 10 (measurement PC 10-2) or inside and outside.

It is a figure which shows Example 1 of the signal analyzer by this invention. It is a figure which shows the detection data and analysis result which are displayed on the display part of the signal analyzer of this invention. It is a figure which shows Example 2 of the signal analyzer by this invention. It is a figure which shows the operation | movement flow at the time of measurement of measurement PC by this invention. It is a figure which shows the flow of the arithmetic expression input procedure of measurement PC by this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Signal analyzer 20 Signal processing part 21 Actual input channel part 23 Virtual output channel part 24 Calculation part 60 Microphone

Claims (15)

An actual input channel section for inputting each sound pressure level detected from a plurality of microphones ;
A calculation unit that calculates an acoustic power level based on each sound pressure level at the time of input by the actual input channel unit ;
A synchronization processor that synchronizes the acoustic power level calculated by the calculator with the temporal relationship between the sound pressure level and the sound pressure level;
A virtual output channel unit that outputs the sound power level calculated by the calculation unit to the inside and / or the outside; and
A real output channel unit that outputs the sound pressure level synchronized by the synchronization processing unit to the inside and / or the outside at the same time when the sound power level is output by the virtual output channel unit;
A signal analysis apparatus comprising: The signal analysis device according to claim 1 ,
A display unit for displaying the sound power level ;
A signal analyzer characterized by the above. In the signal analysis device according to claim 1 or 2 ,
A storage unit for storing the acoustic power level as measurement data in an internal medium or an external medium of the signal analysis device;
A signal analyzer characterized by the above. In the signal analysis device according to any one of claims 1 to 3 ,
An arithmetic expression input unit for inputting an arithmetic expression for the arithmetic unit to calculate;
A signal analyzer characterized by the above. In the signal analysis device according to any one of claims 1 to 4 ,
An arithmetic expression storage unit that stores a plurality of arithmetic expressions, and an arithmetic expression selection unit that selects an arithmetic expression from a plurality of arithmetic expressions stored in the arithmetic expression storage unit,
A signal analyzer characterized by the above. In the calculation program of the signal analyzer that analyzes each sound pressure level detected from a plurality of microphones ,
In the signal analyzer,
An actual input procedure for inputting the respective sound pressure levels ;
A calculation procedure for calculating a sound power level based on each sound pressure level at the time of input by the actual input procedure ,
A synchronization processing procedure that synchronizes the acoustic power level calculated in the calculation procedure with the temporal relationship between the sound pressure level and the same;
A virtual output procedure for outputting the calculated sound power level internally and / or externally;
An actual output procedure for outputting the sound pressure level synchronized by the synchronization processing procedure to the inside and / or the outside at the same time when the sound power level is outputted by the virtual output procedure;
An arithmetic program that executes In the arithmetic program according to claim 6 ,
Causing the signal analyzer to execute a display procedure for displaying the sound power level ;
An arithmetic program characterized by In the calculation program according to claim 6 or 7 ,
Causing the signal analyzer to execute a storage procedure for storing the sound power level as measurement data;
An arithmetic program characterized by In the arithmetic program according to any one of claims 6 to 8 ,
Causing the signal analyzer to execute an arithmetic expression input procedure for inputting an arithmetic expression;
An arithmetic program characterized by In the arithmetic program according to any one of claims 6 to 9 ,
Causing the signal analyzer to execute an arithmetic expression selection procedure for selecting an arithmetic expression from a plurality of arithmetic expressions stored in advance;
An arithmetic program characterized by In the arithmetic processing method of the signal analyzer that analyzes each sound pressure level detected from a plurality of microphones ,
An actual input step for inputting the respective sound pressure levels ;
A calculation step of calculating a sound power level based on each sound pressure level at the time of input in the actual input step ;
A synchronization processing step of synchronizing the calculated sound power level and the sound pressure level to match the temporal relationship ;
A virtual output step of outputting the calculated sound power level internally and / or externally;
An actual output step of outputting the sound pressure level synchronized by the synchronization processing step to the inside and / or the outside simultaneously with the output of the sound power level by the virtual output step;
An arithmetic processing method including The calculation processing method according to claim 11 ,
Including a display step of displaying the sound power level ;
An arithmetic processing method characterized by the above. In the calculation processing method according to claim 11 or 12 ,
Including a storage step of storing the acoustic power level as measurement data in the signal analysis device;
An arithmetic processing method characterized by the above. In the arithmetic processing method according to any one of claims 11 to 13 ,
Including an arithmetic expression input step for inputting an arithmetic expression to be calculated in the calculating step;
An arithmetic processing method characterized by the above. In the arithmetic processing method according to any one of claims 11 to 14 ,
Including an arithmetic expression selection step of selecting an arithmetic expression from a plurality of arithmetic expressions stored in advance;
An arithmetic processing method characterized by the above.

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